Pinned Repositories
IMCMCrun
IMCMCrun is used to perform a seismic inversion using a fast eikonal solver and interactive markov chains algorithm. TODO add reference to the article when it is done. Author : Alexis Bottero (alexis Dot bottero At gmail Dot com). Feel free to contact me for any questions. Source code (c/c++/fortran) can be found in directory src. This program include wavelet library : Wavelib. This program can be run in parallel on a CPU cluster. Directory utils contains some useful python script to watch the results of an inversion.
seisflows
full waveform inversion and adjoint tomography workflows
specfem1d
SPECFEM1D simulates seismic wave propagation in a one-dimensional heterogeneous medium. It is a small code that allows users to learn how a spectral-element program is written.
specfem2d
SPECFEM2D simulates forward and adjoint seismic wave propagation in two-dimensional acoustic, (an)elastic, poroelastic or coupled acoustic-(an)elastic-poroelastic media, with Convolution PML absorbing conditions.
specfem3d
SPECFEM3D_Cartesian simulates acoustic (fluid), elastic (solid), coupled acoustic/elastic, poroelastic or seismic wave propagation in any type of conforming mesh of hexahedra (structured or not). It can for instance model seismic waves propagating in sedimentary basins or any other regional geological model following earthquakes. It can also be used for non destructive testing or for ocean acoustics.
specfem1d
SPECFEM1D simulates seismic wave propagation in a one-dimensional heterogeneous medium. It is a small code that allows users to learn how a spectral-element program is written.
specfem2d
SPECFEM2D simulates forward and adjoint seismic wave propagation in two-dimensional acoustic, (an)elastic, poroelastic or coupled acoustic-(an)elastic-poroelastic media, with Convolution PML absorbing conditions.
specfem3d
SPECFEM3D_Cartesian simulates acoustic (fluid), elastic (solid), coupled acoustic/elastic, poroelastic or seismic wave propagation in any type of conforming mesh of hexahedra (structured or not).
bottero's Repositories
bottero/IMCMCrun
IMCMCrun is used to perform a seismic inversion using a fast eikonal solver and interactive markov chains algorithm. TODO add reference to the article when it is done. Author : Alexis Bottero (alexis Dot bottero At gmail Dot com). Feel free to contact me for any questions. Source code (c/c++/fortran) can be found in directory src. This program include wavelet library : Wavelib. This program can be run in parallel on a CPU cluster. Directory utils contains some useful python script to watch the results of an inversion.
bottero/seisflows
full waveform inversion and adjoint tomography workflows
bottero/specfem1d
SPECFEM1D simulates seismic wave propagation in a one-dimensional heterogeneous medium. It is a small code that allows users to learn how a spectral-element program is written.
bottero/specfem2d
SPECFEM2D simulates forward and adjoint seismic wave propagation in two-dimensional acoustic, (an)elastic, poroelastic or coupled acoustic-(an)elastic-poroelastic media, with Convolution PML absorbing conditions.
bottero/specfem3d
SPECFEM3D_Cartesian simulates acoustic (fluid), elastic (solid), coupled acoustic/elastic, poroelastic or seismic wave propagation in any type of conforming mesh of hexahedra (structured or not). It can for instance model seismic waves propagating in sedimentary basins or any other regional geological model following earthquakes. It can also be used for non destructive testing or for ocean acoustics.